Propagation of the nonlinear damped Korteweg-de Vries equation in an unmagnetized collisional dusty plasma via analytical mathematical methods

In this article, we consider the problem formulation of dust plasmas with positively charge, cold dust fluid with negatively charge, thermal electrons, ionized electrons, and immovable background neutral particles. We obtain the dust-ion-acoustic solitary waves (DIASWs) under nonmagnetized collision dusty plasma. By using the reductive perturbation technique, the nonlinear damped Korteweg-de Vries (D-KdV) equation is formulated. We found the solutions for nonlinear D-KdV equation. The constructed solutions represent as bright solitons, dark solitons, kink wave and antikinks wave solitons, and periodic traveling waves. The physical interpretation of constructed solutions is represented by two- and three-dimensional graphically models to understand the physical aspects of various behavior for DIASWs. These investigation prove that proposed techniques are more helpful, fruitful, powerful, and efficient to study analytically the other nonlinear nonlinear partial differential equations (PDEs) that arise in engineering, plasma physics, mathematical physics, and many other branches of applied sciences.

Automated summary

This article considers the problem formulation of dust plasmas, obtaining dust-ion-acoustic solitary waves under nonmagnetized collision dusty plasma and formulating the nonlinear damped Korteweg-de Vries equation. The solutions for nonlinear D-KdV equation include bright solitons, dark solitons, kink wave and antikinks wave solitons, and periodic traveling waves. The constructed solutions are represented graphically to understand the physical aspects of various behavior for DIASWs.